Synergism of Interface and Electronic Effects: Bifunctional N-Doped Ni3 S2 /N-Doped MoS2 Hetero-Nanowires for Efficient Electrocatalytic Overall Water Splitting.

The realization of water electrolysis on the basis of highly active, cost-effective electrocatalysts is significant yet challenging for achieving sustainable hydrogen production from water. Herein, N-doped Ni3 S2 /N-doped MoS2 1D hetero-nanowires supported by Ni foam (N-Ni3 S2 /N-MoS2 /NF) are readily synthesized through a chemical transformation strategy by using NiMoO4 nanowire array growth on Ni foam (NiMoO4 /NF) as the starting material. With the in situ generation of Ni3 S2 /MoS2 heterointerfaces within nanowires and the incorporation of N- anions, an extraordinary hydrophilic nature with abundant, well-exposed active sites and optimal reaction dynamics for both oxidation and reduction of water are obtained. Attributed to these properties, as-converted N-Ni3 S2 /N-MoS2 /NF exhibits highly efficient electrocatalytic activities for both hydrogen and oxygen evolution reactions under alkaline conditions. The superior bifunctional properties of N-Ni3 S2 /N-MoS2 /NF enable it to effectively catalyze the overall water-splitting reaction.